CSIG-19. CYTOMEGALOVIRUS INFECTION LEADS TO NF-kB DEPENDENT UPREGULATION OF c-MET AND MGMT IN GLIOBLASTOMA AND RESISTANCE TO TEMOZOLOMIDE IN VIVO

Abstract

Abstract INTRODUCTION Cytomegalovirus (CMV), a member of the betaherpesvirinae subfamily widespread in human populations has been reported to be detectable in glioblastoma (GBM). We have recently shown that CMV latent infection promotes GBM growth in a mouse model. The mechanisms involved are not well-defined and treatment responses have not been evaluated. METHODS To investigate the effects of CMV on GBM cells we performed an RNAseq study. Differentially expressed genes were identified and validated in vitro and in vivo. RESULTS RNAseq analysis showed multiple alterations induced by CMV infection of GBM cells including significant upregulation of c-MET (8.2 log2 fold change) and MGMT (3.9 log2 fold change) transcripts after CMV infection. c-MET is a tyrosine kinase receptor known to promote GBM growth, and MGMT expression leads to resistance to the alkylating agent temozolomide (TMZ). These findings were validated in vitro in both mouse and human GBM cells, and shown to be dependent on CMV-induced upregulation of NF-kB by siRNA knockdown of the essential RelA NF-kB subunit. The c-MET co-receptor CD44 was also upregulated suggesting a role for the c-MET signalling axis in CMV induced tumor progression. CMV-infected tumor cells were resistant to TMZ treatment as expected due to MGMT upregulation. Treatment of our murine GBM model with TMZ led to a significant increase in survival in control mock-infected mice (median survival 38 days control, 48 days TMZ), whereas the CMV infected mice did not respond (median survival 35 days control, 35 days TMZ; p value between TMZ treated groups = 10–4). CONCLUSIONS Our results define novel and relevant mechanisms by which CMV may influence both GBM growth and resistance to treatment. Further therapeutic and mechanistic studies are underway to investigate these pathways in the context of CMV in GBM. These data support further study of CMV targeting in GBM.